Citation: | LIU Yu, LÜ Zhong-jie, HUANG Feng-lei, GUO Xue-yong, SHEN Zheng-xiang. Experimental study on vapor explosion caused by interaction between high temperature molten aluminum and water[J].JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2014, 23(2): 147-151. |
[1] |
Berthoud G. Vaporexplosions[J]. Annual Review of Fluid Mechanics, 2000, 32 (1): 573-611.
|
[2] |
Ciccarelli G, Frost D L. Effect of fluid flow velocity on the fragmentation mechanism of a hot melt drop [J].Progress in Astronautics and Aeronautics, 1992, 154 (1):134-361.
|
[3] |
Corradini M L, Kim B J, Oh M D. Vapor explosion in light water reactor: a review of theory and modeling[J]. Progress of Nuclear Energy,1998,22(1):171-177.
|
[4] |
Corradini M L. Vapor explosion: a review of experiment for accident analysis[J]. Nuclear Safety, 1991,32(3):337-362.
|
[5] |
Fletcher D F, Denham M K. Validation of the CHYMES mixing model[J]. Nuclear Engineering and Design, 1995,155:85-96.
|
[6] |
Fletcher D F. Steam explosion triggering: a review of theoretical and experimental investigations[J]. Nuclear Engineering and Design, 1995,155:27-36.
|
[7] |
Kim B, Corradini M L.Modeling of small-scale droplet fuel/coolant interactions[J].Nuclear Science and Engineering,1988,98:16-28.
|
[8] |
Ciccarelli G, Frost D L. Fragmentation mechanisms based on single drop steam explosion experiments using flash X-ray radiography[J].Nuclear Engineering Design, 1994,146:109-132.
|
[9] |
Fauske H K. On the mechanism of uranium dioxide·sodium explosion interactions[J].Nuclear Science Engineering,1973,51:95-101.
|
[10] |
Board S J, Hall R W. Recent advances in understanding large scale vapor explosions[C]//Proc Comm Saf Nucl Install Meet. Sodium-Fuel Interact Fast Reactor, Tokyo, 1976: 249-293.
|